Erosion Prediction in Ungauged Basins (PUBs):
Integrating Methods and Techniques
Edited by
Dirk H. de Boer, Wojciech Froehlich, Takahisa Mizuyama & Alain Pietroniro
IAHS Publication no. 279
Key Word Index
- AGNPS; agricultural Non-Point Source
- Pollution, 125
- air photos, 68
- algal bloom, 33
- Aliakmon River; Greece, 234
- Alluvial
- fans, 241
- sediment, 43
- Australia, 33
- Bayesian mixing model, 33
- bed load, 13, 68
- benefits, 24
- Bili-Bili Dam; Indonesia, 180
- Botonega River; Croatia, 224
- Brazil, 117
- buried refuse, 43
- caesium-137, 3
- check dams, 51
- China, 93, 145
- Wei River, 93
- Yellow River, 93
- chronology, 43
- conservation, 24
- costs, 24
- Croatia; Botonega River, 224
- date of manufacture, 43
- deposition, 3
- dissolved load, 84
- distributed
- hydrological model, 93, 131, 151
- rainfall-sediment-runoff model, 131
- Dragonja River; Slovenia, 224
- drainage basin, 93
- Eastern Italian Alps, 241
- E-GIS, 171
- elevation change, 68
- erosion, 3, 68, 93, 101, 117, 171, 180, 199, 224
- experimental basin, 117
- forest fragmentation, 216
- Gavrilovic method, 224, 234
- geochemistry, 33
- GIS, 93, 151, 162, 180, 234
- glacial erosion rate, 13
- glacierized basins, 13
- Greece, 234
- Greenland, 84
- Gully
- erosion, 188
- erosion modelling, 188
- hillside works, 68
- hillslope, 101
- Himalayas, 206
- historical map, 68
- hydrological prediction, 145
- hydropower planning, 13
- Indonesia, 125, 171
- Indus River, 206
- institutions, 24
- integrating remote sensing and GIS, 206
- Italy, 241
- Jeneberang basin (Indonesia), 171, 180
- KINEROS2, 216
- land use, 180
- land-use change, 162
- large drainage basins, 206
- legislation, 24
- mathematical model, 79, 101
- model
- Agricultural Non-Point Source Pollution (AGNPS), 125
- Bayesian mixing, 33
- distributed, 93, 151
- distributed rainfall-sediment-runoff, 131
- mathematical, 79, 101
- optimum complexity, 131
- process-based, 117
- reliability, 131
- SEDD, 151
- modelling, 109
- gully erosion, 188
- Moldova, 24
- Monte Carlo Markov Chain, 33
- Monte Carlo simulation, 131
- mountain streams, 241
- Northern Apennines, 241
- optimum model complexity, 131
- overland flow, 216
- Pakistan, 206
- partial regression, 79
- policy, 24
- prediction, 79
- principal component analysis, 33
- process-based model, 117
- PUB, 145
- radar interferometry, 241
- rainfall erosion, 101
- rainfall-runoff model, 162
- reconnaissance measurements, 3
- refuse, 43
- regional relationships, 117
- remote sensing, 162
- reservoir, 33, 180
- reservoir sedimentation, 59
- response units, 188
- riverbed, 68
- roads, 199
- runoff erosion, 101
- SEDD model, 151
- sediment, 93, 180
- alluvial, 43
- budget, 3, 59, 206
- load, 84
- routing, 68
- source fingerprinting, 3
- storage, 3
- transfer, 241
- yield, 13, 51, 125, 224
- yield measurements, 151
- semiarid, 109
- simulation, 109
- simulation and computer models, 171
- Slovenia; Dragonja River, 224
- soil erosion, 79, 109, 151
- soil erosion and conservation, 24
- southeast Asia, 216
- southern Spain, 51
- stream sediment, 199
- Sulawesi, 180
- suspended load, 13, 68
- Swaziland, 188
- Ta-Chou basin; Taiwan, 162
- timber harvesting, 199
- tolerable soil loss, 180
- trace elements, 33
- tropical rain forest, 199
- ungauged
- basin, 84, 101, 145, 162
- glacierized basins, 13
- uplands, 59
- USLE, 151
- vegetation cover, 79
- Vietnam, 216
- washload, 68
- Wei River (China), 93
- WESP, 117
- Yellow River (China), 93